Difference between revisions of "Team:Paris Bettencourt/Protocols"
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<div class="ptext"><p>Electrocompetent Cells</p></div> | <div class="ptext"><p>Electrocompetent Cells</p></div> | ||
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<div class="ptext"><p><i>L. plantarum</i> Electrocompetent Cells</p></div> | <div class="ptext"><p><i>L. plantarum</i> Electrocompetent Cells</p></div> | ||
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<div class="ptext"><p>Gel purification</p></div> | <div class="ptext"><p>Gel purification</p></div> | ||
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<div class="ptext"><p>Yeast Lysis with NaOH</p></div> | <div class="ptext"><p>Yeast Lysis with NaOH</p></div> |
Revision as of 10:20, 19 November 2015
Ferment It Yourself
iGEM Paris-Bettencourt 2O15
- Background
- Design
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Yeast DNA extraction using Blood and tissue kit
Yeast DNA extraction using DNeasy® Blood & Tissue Kit
- Centrifuge a maximum of cells for 5 minutes at 300g (190rpm). Resuspend in 200µL PBS. Add 20µL zymolyase.
- Add 200µL Buffer AL. Mix thoroughly by vortexing.
- Add 200µL ethanol (96%). Mix thoroughly by vortexing.
- Pipet the mixture into a DNeasy Mini spin column placed in a 2mL collection tube. Centrifuge at 6000g (8000rpm) for 1 minute. Discard the flow-through and collection tube.
- Place the spin column in a new 2mL collection tube. Add 500µL Buffer AW1. Centrifuge for 1 minute at 6000g. Discard the flow-through and collection tube.
- Place the spin column in a new 2mL collection tube. Add 500µL Buffer AW2. Centrifuge for 3 minutes at 20,000g. Discard the flow-through and collection tube.
- Transfer the spin column to a new 1.5mL or 2mL microcentrifuge tube.
- Elute the DNA by adding 200µL Buffer AE or sterile water to the center of the spin column membrane. Incubate for 1 minute at room temperature. Centrifuge for 1 minute at 6000g.
- Repeat this step for increased DNA yield.
PCR protocol
PCR protocol (Phusion)
- Prepare the following mix
- 2µL primer Forward (10 µM)
- 2µL primer Reverse (10 µM)
- 0.1 to 1 ng of template DNA
- 25µL of Life Technologies Phusion High-Fidelity PCR Master Mix with HF Buffer
- complete to 50µL of DNase/RNase-free water
- Launch 30 to 35 PCR cycles using the following parameters:
time (min) temperature (°C) function 3:00 98 melting 0:30 98 melting 0:30 XX°C annealing 1 minute/kb 72 extension 10:00 72 extension infinite hold 12 storage
Gel purification with the QIAquick® Gel Extraction Kit
Gel-Purification protocol with the QIAquick® Gel Extraction Kit
- Excise the DNA band from the gel as precisely as possible and put it in a micro-centrifuge tube.
- Add 3 volume of QG buffer (100mg of gel ~ 100ul) in the tube and incubate for 10 min at 50°C (or 10 min on a vortex).
- Add one volume of isopropanol and mix.
- Centrifugate the tube for 2 min at 14 000 rpm.
- Carefully pipette the supernanant in a QIAquick column.
- Put the column in a 2ml microcentrifuge tube and centrifuge it for 1 min at 14 000 rpm.
- Discard the flow-through.
- Add 750 uL of PE buffer in the column and centrifuge for 1 min and discard flow-through.
- Centrifuge again for 2 min and put the column in a new 1.5uL microcentrifuge tube.
- Elute the DNA by putting 50uL of water in the middle of the column and let it stand for 2 min.
- Centrifugate for 2min at 10 000 rpm
Gel Electrophoresis with SYBR safe
Gel-Electrophoresis protocol
- Preparation of the Gel (50mL)
- Mix 0.5 grams of agarose with 50mL 0.5% TAE solution
- Heat the Erlenmeyer (conical flask) in a microwave until the liquid becomes totally transparent.
- Let it rest until you can take the Erlenmeyer in your hand without pain for 10 seconds.
- Add 5uL of SYBR® Safe (10000X) and mix gently until the solution homogenizes.
- Pour the liquid in a gel mold with the desired number of wells and wait 20-30 min (or until the gel is solidified).
- Put the gel inside the electrophoresis machine and pour TAE 0.5% until the gel is totally submerged.
- Preparation of the samples
- Mix 5uL of each sample with 1uL of 6X loading dye in microcentrifuge tubes (or any hydrophobic surface like parafilm)
- Pipette 5-6uL of each sample inside a different well.
- Pipette 5uL of the appropriate ladder in one of the wells (Some ladders have a dye in it, but some don't, so one has to add gel loading dye to these ones)
- Close the machine and launch the migration with the desired voltage
- After the desired migration time turn off the machine, remove the lid and put the gel inside the gel visualizer.
Titration of phytic acid
Titration of phytic acid using Megazyme© Kit
- Preparation of reagent solutions (not supllied) :
- Trichloroacetic acid (50% w/v) : 100mL Add 50g of thrichloroacetic to 60mL of distilled water and dissolve. Make to volume (100mL) with distilled water. (Stable for > 6 moths at 4°C)
- Hydrochloric acid (0.66M) : 1L Add 54.5mL of hydrochloric acid to 945.5mL of distilled wtaer an mix. (Store at room temperature)
- Sodium hydroxide (0.75M) : 200mL Add 6g of sodium hydroxide pellets to 180mL of distilled water and dissolve. Make to volume (200mL) with distilled water. (Store at room temperature)
- Phytic acid : Pure phytic acid control sample may be required.
- Sample extraction :
- Weigh 1g of sample material.
- Add 20mL of hydrochloric acid (0.66M).
- Cover with foil and incubate for a minimum of 3 hours at room temperature.
- Transfer 1mL of extract to a 1.5mL microcentrifuge tube.
- Centrifuge 10 minutes at 13,000rpm.
- Transfer 0.5mL of the resulting extract supernatant to a fresh 1.5mL microfuge tube.
- Add 0.5mL of sodium hydroxide solution (0.75M) to neutralise.
- Enzymatic dephosphorylation reaction :
- Colourimetric determination of phosphorous :
- Preparation of phosphorous calibration curve :
- Calculation :
- Phosphorous calibration curve : Determine the absorbance of each phosphorous standard. Substract the absorbance of STD0 from the absorbance of the others STD, therby obtaining ΔA(phosphorous). Calculate M as follows, for each standard: \[ \begin{align} M = \frac{P(\mu g)}{\Delta A (phosphorous)} \end{align} \] Use "Mean M" to calculate the phosphorous content of test samples.
- Phosphorous / phytic acid content : Determine the absorbance of the both "Free Phosphorous" and "Total Phosphorous". Substract the absorbance of the "Free Phosphorous" sample from the absorbance of the "Total Phosphorous" sample. Obtaining ΔA(phosphorous). \[ \begin{align} C^{o} = \frac{mean(M)\times 20 \times F}{10000 \times 1.0 \times \nu} \times \Delta A(phosphorous) \end{align} \]
Where :
\(20\) = original sample extract volume
\(F\) = dilution factor
\(10000\) = conversion from µg/g to g/100g
\(1.0\) = wigh of original sample material
\(\nu\) = sample volume
It follows for phosphorous :
\[ \begin{align} C^{o} ~= \frac{mean(M)\times 20 \times 55.6}{10000 \times 1.0 \times \nu} \times \Delta A(phosphorous)\\ ~= mean(M) \times 0.1112 \times \Delta A(phosphorous) \end{align} \] It follows for phytic acid :
\[ \begin{align} C^{o} = \frac{phosphorus}{0.282} \end{align} \]Vitamin B12 titration
- Disrupt the microorganisms in a 0.1 N phosphate buffer solution containing 0.01% KCN at pH 5.5 for 20 min at 100°C.
- Vitamin B12 formed intracellularly is determined spectrophotometrically in the dicyano-form at wavelength of 367 nm.
PCR purification
- Add 5 volumes of resuspension buffer to 1 volume of PCR product in an 1.5mL microcentrifuge tube, mix by pipetting up and down
- Transfer in a centrifugation column
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Add 700μL of washing solution
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Add 500μL of washing solution
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Put the column in a sterile 1.5mL microcentrifuge tube
- Add 45μL of DNAse/RNAse free water on the membrane
- Wait 2 minutes
- Centrifuge 2min at 10000rpm
- Discard the column, DNA is saved in water
Analytical digestion protocol
- Prepare the following mix:
- 2µL 10X Digestion buffer
- 0.5µL Eco31I
- 0.5µL BbsI
- 2µL of DNA (200ng)
- 15µL water
- incubate 1h at 37°C
Annealing Protocol
- Phosphorylation of the oligos
- 5.6μL DNAse/RNAse free water
- 6.0μL oligo 1 (10µM)
- 6.0μL oligo 2 (10µM)
- 2.0μL 10X T4 DNA ligase buffer
- 0.4μL T4 PolyNucleotide Kinase Total: 20μL
- incubate 30min at 37°C
- add 1μL of 1M NaCl
- incube 5min at 95°C
- let the mix cool down
- use 2μL of the mix as a 10X solution
Chemical test for competent cells
- 20-30 sec at 8-10 krpm for the DNA tube (from the kit).
- Thow cell competent on ice. Label 2 ml eppendorf µtube for each concentration and put it on ice.
- Add 1µl of DNA into each µtube.
- Add 50µl of competent cell into each tube. Flick gently to mix. Incubate in ice for 30 minutes. Pre-heat waterbath at 42°C.
- Heat-shock cell by placing in waterbath 1 minute. CAUTION : The top need to be close to the water level, but not immerge in.
- Keep back the tube to ice for 5 minutes.
- Add 200µl of SOC media, incubate 37°C for 2h. Prepare agar plate of the media that you want, and label it (3 plate for each concentration).
- Add 20µl of each tube n the appropriate plate. Incubate 37°C for OVN (12-16h).
BANANAAAA
- Line up ice cream scoops next to each other in an oval deep dish or a banana boat.
- Cut the ends of the banana off (about 1/4 inch) while still in the peel.
- Slice in half longways.
- Pop each half of the banana out of the peel onto each side of the ice cream row, pressing down and in a little so it'll stay put.
- Top the vanilla ice cream with the pineapple, the chocolate with the chocolate syrup and the strawberry with the strawberry sauce.
- Spoon the wet walnuts over all three scoops of ice cream.
- Top each scoop with some whipped cream and a cherry for each.
- Enjoy!
Electroporation
- Thaw electrocompetent cells on ice
- Add 2µL of ligation product or 0.5µL of native plasmid to the cells
- Transfer the cells in an 0.2mm electroporation cuvette
- put the cuvette in the electroporation device and pulse the cells at 2.5kV, 200 Ohms and 25µF
- add 200µL of LB right after pulsing
- recover 2 hours at 37°C
- plate 200µL and 50µL of the cells on LB + erythromycin (200µg/mL), incubate overnight at 37°C
Electrocompetent Cells
- Inoculate a 250mL LB flasks with 2.5mL of an overnight culture of cells
- Incubate until the the DO600 reach 0.6 to 0.8
- Place the cultures on ice for 15 minutes
- Pour the culture in cold sterile 50mL falcon tubes
- Centrifuge for 10 minutes at 4000rpm, 4°C
- Throw the supernatant
- Resuspend the cells in 50mL cold distilled water
- Place the cells on ice for 10 minutes
- Centrifuge them for 10 minutes at 4000rpm, 4°C
- Throw the supernatant
- Resuspend the cells in 12.5mL cold 10% glycerol
- Place the cells on ice for 10 minutes
- Centrifuge them for 10 minutes at 4000rpm, 4°C
- Throw the supernatant
- Resuspend the cells in 5mL cold 10% glycerol
- Make aliquots of 50 to 100µL in microcentrifuge tubes and freeze them at -80°C
Digestion
- Prepare the following mix:
- 4μL of Enzyme 1 Fast Digest
- 4μL of Enzyme 2 Fast Digest
- 4μL of FastAP
- 12μL of Fast Digest buffer 10X
- 1 to 3 μg of DNA
- up to 120μL of water
- mix by pipetting up and down
- incube 10 to 20 minutes at 37°C
- incube 10 minutes at 68°C to inactivate the enzymes
Lactobacillus plantarum electrocompetent cells
- Inoculate 5ml MRS medium with L. plantarum freezer stock.
- Grow overnight at 30°C without shaking.
- Add 1.25g glycine to two flasks of 50ml MRS medium.
- Shake to dissolve.
- Add 1ml overnight culture to each flask (1:50 dlution).
- Culture for ~3 hours at 37°C with shaking.
- Centrifuge culture for 5min at 4000g
- Resuspend in 25ml ice-cold DI water.
- Repeat it.
- Centrifuge for 5min at 4000g
- Resuspend in 5ml 50mM EDTA.
- Incubate on ice for 5 minutes
- Add 25ml ice-cold DI water.
- Centrifuge culture for 5min at 4000g
- Resuspend in 25ml ice-cold DI water.
- Centrifuge culture for 5min at 4000g
- Resuspend in 25ml ice-cold 0.5M Sucrose, 10% glycerol.
- Repeat it.
- Centrifuge culture for 5min at 4000g
- Resuspend in 0.8ml ice-cold 0.5M Sucrose, 10% glycerol.
- Aliquot 90μL of cell concentrate into ~20 microcentrifuge tubes.
- Keep on ice until use (within the next two hours).
- Add 10μL of plasmid DNA to the 90μL of cell concentrate.
- Keep on ice for 5 minutes.
- Put 1mm cuvettes on ice too.
- Pipette the cell/DNA mixture into the cuvette
- Electrporate at 1200 volts
- Time constant should be ~5.0
- Immediately transfer the electroporated cells to 900μL of MRS medium.
- Incubate at 30°C for 2-3 hours.
- Plate on medium with the appropriate antibiotic.
- Incubate at 30°C for two days.
- Pick a colony
Heat Shock Transformation
- Thaw frozen chemically competent cells (20µL aliquots) on ice for 10min.
- add 2µL of ligation product (or 0.5µL of miniprep) and incubate the cells 30sec at 42°C.
- put the cells back on ice for 2min.
- add 200µL of LB to the cells and incubate 2 hours at 37°C.
- plate the cells on LB + erythromycin (150µg/mL) or LB + erythromycin (10µg/mL), incubation at 37°C overnight.
Vitamin A Titration
- Take 1g of food (with particle < 1mm of diameter) in bottle protected of the light, and add 15ml of hexane. Mix it.
- Add again 15ml of hexane and shake during 5-10 minutes (do the same time, if you want compare two food sample).
- In an other bottle protected of the light, do a filtration (coarse cellulose filter) of the previous solution.
- Take the batter who don't pass the filter, and 15ml of hexane, shake 5 minutes, and filtered it like previously, to take all B-caroten as possible from the food sample.
- Put in the fridge at -20°C to conserve it.
- Obtain the result with a spectrophotometer with wavelenght of 450 nm (with a blank of hexane).
Vitamin A Titration using HPLC
- Suspend cells in 1 mL of sterile water.
- Add 0.5 to 0.75 mm glass beads and vortex for 3 minutes.
- Add 2.5 mL of 0.2% (wt/vol) pyrogallol dissolved in methanol and vortex for 3 minutes.
- Add 1.25 mL of 60% (wt/vol) KOH and vortex for 10 seconds.
- Incubate for 1 h at 75ºC, vortexing every 15 minutes.
- Add appropriate amount of hexane.
- Centrifuge tubes for 5 minutes at 2,800 rpm.
- Pipette 1 mL of hexane into a cuvette.
Lactococcus lactiselectrocompetent preparation
Prepare the following solutions- Glycine/Sucrose solution
- 80mL of 50% sucrose solution
- 29.2mL of 20% glycine solution
- 7.6mL of water
- Electroporation buffer
- 0.125g of NaHPO4
- 34.2mL of 50% sucrose solution
- 100µL of MgCl2 1M
- 65.5mL of water
- Electroporation buffer + glycreol
- 187.5µL of 80% glycerol
- 812.5µL of electroporation buffer
- Inoculate 10mL of M17 + 1% glucose (GM17) with some Lactococcus and incubate overnight at 30°C
- Inoculate a 100mL flask of GM17 with the 10mL of overnight culture
- Incubate the flask at 30°C until DO reach 0.4 to 0.5
- Add 100mL of the glycine/sucrose solution
- Incubate 1 hour at 30°C with shaking
- Split the 100mL culture in twyo 50mL centrifuge tubes
- Centrifuge the cells 10 minutes at 6000 rpm
- Throw the supernatant and work on ice for the rest of the protocol
- Resuspend the cells in 20mL of electroporation buffer
- Centrifuge the cells 10 minutes at 6000 rpm and then throw the supernatant
- Resuspend the cells in 20mL of electroporation buffer
- Centrifuge the cells 10 minutes at 6000 rpm and then throw the supernatant
- Resuspend the cells in 0.5mL of electroporation buffer
- Centrifuge the cells 10 minutes at 6000 rpm and then throw the supernatant
- Resuspend the cells in 1mL of cold electroporation buffer + glycerol
- Aliquots the cells in eppendorf tubes
- Save the cells at -80°C
Yeast Lysis with NaOH
- 20 µl NaOH into PCR tubes
- Pick colonies into NaOH
- Incubate at 95°C for ~45 minutes
- Centrifugate at 8000 krpm for 10 minutes
- Use 1 µl supernatant as template in a (10 µl) PCR
Heat Shock Transformation for Yeast
- After growth, determine the titer of the yeast culture by using spectrophotometer : pipette 10µL of cells into 1mL of water in spectrophotometer cuvette and measure the OD at 600nm.
- Add 2.5x108 cells to 50mL of 2X YPD in a culture flask.
- Incubate the flask in a shaking incubator at 30°C until the cell culture is at least 2x107 cells.mL-1
- Denature 1mL of carrier DNA at 99°C for 5min and chill immediately in ice.
- Harvest the yeast cells by centrifugation at 3,000g for 5min.
- Resuspend the pellet in 25mL of sterile water and centrifuge at 3,000g for 5min at 20°C. Repeat this wash with sterile water 2 times.
- Resuspend the last pellet in 1mL of sterile water.
- Transfer the cell suspension to a 1.5mL microcentrifuge tube.
- Centrifuge for 30s at 13,000g and discard the supernatant.
- Resuspend the cells in 1mL of sterile water and pipette 100µL samples into 1.5mL microcentrifuge tubes, one for each transformation.
- For each transformation :
- 240µL of PEG 3350 (50% (w/v))
- 36µL of LiAc 1.0M
- 50µL of single-stranded carrier DNA (2.0mg.mL-1)
- 6µL of PCR product
- 28µL of water DNAse Free
- Place the tubes at 42°C for 40min.
- Centrifuge the tubes at 13,000g for 30s in a microcentrifuge tube and remove the supernatant.
- Pipette 1mL of YPD liquid medium into the transformation tube, and vortex mix to resuspend pellet.
- Incubate 3h at 30°C to ensure good antibiotic expression.
- Plate 2, 20 and 200µL of the cell suspension onto YPD medium with 200µm.mL-1 antibiotic G418.
- Incubate the plates at 30°C for 3 days.
Ligation
- Mix the following:
- vector 100ng
- insert 300ng
- 2µL T4 DNA ligase buffer 10X
- 1µL T4 DNA ligase
- up to 20µL of water
- incubate 10 to 15 minutes at 22°C
- incubate 5 minutes at 70°C
Vitamin B2 Titration using HPLC
Titration protocols for vitamin A Here, I find 2 different protocols to determine the quantity of B2 using HPLC.
I°) In a 250 ml conical flask, put 5g of food sample and 65 ml of 0.1M HCl.
Put it in 100°C for 30 minutes.
Cooling, then adjuste Ph to 4.5 with 2.5M sodium acetate.
Add 50ml Beta amylase, 500ml Takadiastase in water (small quantity). Put it at 37°C for 18h.
Dilutate with 125ml water.
Fitred with cellulose paper. And do a 2nd filtration with 0.2µm filter paper.
II°) Take Xg of food sample and add 15ml of 0.1M HCl.
Incubate at 100°C for 30 minutes.
Cooling, then add 2.5M sodium acetate (to have a Ph4.5) and add 10mg of Takadiastase. Incubate it at 50°C during 3h.
Filtred with Albert No 135.
Made up to 25ml with milli Q water.
Filtered with 0.2µm nylon filter.
Idli Recipe
- Soak rice and dall separately for 4-5 hours. (for 1.5 volume of rice, put the same volume of water, and 0.5 volume of dall, put the same volume of water).
- Rinse both, mix it, add 2/3 volume of water of this volume.
- Blend this mix, and let ferment for 12-16 hours.
- Then Cook it with idli cooker for 15 minutes.
- Add µorganisms during the soak phase
- Add µorganisms after the blending phase.
- Let soak µorganisms in the same time that rices and dall, and add it for the blending phase.
Miniprep protocol
- centrifuge an overnight culture of cells 10min at 4krpm
- throw the filtrate
- resuspend the pellet in 250μL of Cell Resuspension Solution then mix it
- transfer it in a 1.5mL microcentrifuge tube
- add 250mL of Cell lysis solution and mix by inverting several times
- incube until the liquid is clear, maximum 5min
- add 10μL of Alkalyne protease solution, mix by inverting several times and incube 3 to 4 min
- add 350μL of Neutralisation Solution and mix by inverting several times
- centrifuge 10min at 14krpm
- add the supernatant in a column
- centrifuge 1min, 14krpm, then throw the filtrat
- add 750μL Washing Solution
- centrifuge 1min, 14krpm, then throw the filtrat
- add 250μL Washing Solution
- centrifuge 2min, 14krpm, then throw the filtrat
- centrifuge 1min, 14krpm
- transfer the column in a sterile microcentrifuge 1.5ml tube
- add 50μL of DNAse/RNAse free water right on the membrane of the filter, wait 1min
- centrifuge 1min, 14krpm
- throw the column, plasmid is saved in water
Miscellaneous